N A DRY POWDER INHALATION SIEVED/MILLED/MICRONIZED LACTOSE AC Technical brochure
MEGGLE s, milled and alpha-lactose monyhydrate for dry powder : General information The delivery of active pharmaceutical ingredients (APIs) via the lung is becoming increasingly important as ever more patients all over the world suffer from chronic respiratory diseases [1]. Dry powder inhalers (DPIs) are widely used in pulmonary drug delivery. This is due to their advantages, such as ease of use, small size, portability, and the lack of requirement of breathactuation coordination [2]. Because they are propellant-free, they are environmentally friendly. Furthermore, as solid-particle formulations they are comparatively stable [3]. Usually, this dosage form contains a device, one or more APIs and an excipient that improves the powder qualities of the formulation. Features such as particle size are fundamental factors in the design of DPIs. Product description In DPI formulations, the excipient not only acts as a filler but also contributes to the performance features of the DPI. An extensive knowledge of the physio-chemical properties is a prerequisite to guarantee the functionality and safety of the DPI. This includes an established and well-investigated production process. All grades are produced via crystallization and subsequent sieving or milling. The optimized and standardized production process consistently ensures the highest production quality. MEGGLE s alpha-lactose monohydrate grades for effortlessly fulfill all criteria for achieving the desired quality, safety, and innovation of DPI formulations. Lactose has a long tradition of application and is proven safe. Thus, lactose is the excipient of choice in pulmonary drug delivery. An established and well-documented production process has lead to this highly specialized product family called. In order to meet formulators expectations, this product family has a broad range. Sieved, milled, and grades have excellent physio-chemical characteristics and conform with compendial requirements. Beyond that, a highly experienced team of specialists are waiting to support you in matters of processing and process adjustment. 2 MEGGLE Dry powder 218-5
Regulatory & quality information MEGGLE s grades comply with the current harmonized USP-NF, Ph. Eur. and JP monographs. In order to meet the special requirements for pulmonary drug delivery, additional and in some cases even stricter specification limits are in place for all grades. These exceed even those currently required by the pharmacopoeias. Specifications and regulatory documents can be downloaded from www.meggle-pharma.com. Our production facility for pharmaceutical products located in Wasserburg, Germany, is certified according to DIN ISO 91:215 and has implemented GMP according to the Joint IPEC-PQG (Good Manufacturing Practices Guide for Pharmaceutical Excipients) as well as guidelines of the USP-NF General Chapters <178> GOOD MANUFACTURING PRACTICES FOR BULK PHARMACEUTICAL EXCIPIENTS. MEGGLE has been an EXCiPACT -certified excipient manufacturer and supplier since 214. All products are manufactured on product lines exclusively dedicated to lactose. Additionally, MEGGLE is a member of IPEC (International Pharmaceutical Excipients Council). Application is suitable for use in pulmonary and nasal drug delivery. BENEFITS Highly controlled powder characteristics Highest microbial quality including endotoxines A broad spectrum of sieve cuts Customized grades Customized product specifications MEGGLE invests considerably in the sustainability of raw material sourcing, production standards, and efficiency. We are actively engaged in environmental protection. In order to guarantee the quality of our products, our commitment and adherence to established pharmaceutical standards remains is our highest priority. MEGGLE Dry powder 218-5 3
Particle size distribution (PSD) Depending on the API (concentration, particle size and shape, hydrophilicity, lipophilicity, ), the device (de-agglomeration principle, single- or multi-dose, capsule, blister, container, ) and the dosage-filling system, different formulation strategies must be applied to guarantee a high and repeatable delivery of the API to the lungs. As the different formulation principles require distinct particle sizes of the excipient MEGGLE offers a range of and milled grades., the coarsest, product, has a typical median particle size of approximately 215, is virtually free of fines (particles < 15 ), shows a narrow particle size distribution (Span:.8) and is best suited to cyclone-based devices. 12 (median particle size: ~13 ), 1 (median particle size: ~11 ) and 23 (median particle size: ~ ), all three products have a narrowly distributed particle size (Span: 1.) and a fines content between 3 5 %. 251, the finest lactose grade, has a median particle size of approximately 5. Typical particle size distribution (Laser diffraction) dry powder inhaler lactose grades, cumulative PSD Cumulative distribution Q3(x)/% 9 5 3 2 1 1 1 12 1 23 251 Typical particle size distribution (Laser diffraction) dry powder inhaler lactose grades, distribution density Distribution density q3lg(x) 4. 3.5 3. 2.5 2. 1.5 1..5 1 1 12 1 23 251 Figures 1 2: Typical cumulative particle size and density distribution of MEGGLE s lactose grades InhaLac, InhaLac 12, InhaLac 1, InhaLac 23 and InhaLac 251. The following laser light diffraction system was used for measurement: Sympatec /Helos & Rodos. Sieved grades Particle size distribution Laser diffraction Lactose type 12 1 23 251 specified/typical specified/typical specified/typical specified/typical specified/typical x 1 11 1 /135 15 / 88 55 85 / 73 3 / 45 7 22 /13 x 5 1 25 /215 11 155 /132 9 12 /18 11 / 97 /49 x 9 2 3 /31 1 215 /175 125 165 /144 11 15 /144 12 /91 Span [(x 9 x 1 )/x 5 ] /.8 /.7 /.7 /1. / 1.6 % fines < 15 / /3 /3 /5 /11 Figure 3: Specified PSD for MEGGLE s lactose grades by laser diffraction (in bold letters). Typical values are shown solely for reference. 4 MEGGLE Dry powder 218-5
The product is characterized by a higher fines content (particles < 15 μm: > 1 %) and broader particle size distribution. 12, 1, 23 and 251 are mainly used in formulations for capsules or blisters (figure 1 and 2). is a finely milled alpha-lactose monohydrate with a typical median particle size of x 5 = 8 μm (figures 4 and 5). 5 is a alpha-lactose monohydrate with a x 9 1. Therefore, 5 is well suitable for soft pellet formulations which are known as promising alternative for conventionally applied interactive mixtures for dry powder. Further details about the specified particle size and typical values are shown in figures 3 and 6. All data was determined by laser light diffraction (Sympatec/Helos & Rodos). Typical particle size distribution (Laser diffraction) milled/ dry powder inhaler lactose grade, cumulative PSD Cumulative distribution Q3(x)/% 2.1 1 1 5 Typical particle size distribution (Laser diffraction) milled/ dry powder inhaler lactose grade, distribution density Distribution density q3lg(x) 1.2 1..8.6.4.2.1 1 1 5 Figures 4 5: Typical cumulative PSD and distribution density of MEGGLE s milled and lactose grades, InhaLac and InhaLac 5. Analyzed by Sympatec /Helos & Rodos. Milled/ grades Lactose type 5 specified/typical specified/typical Particle size distribution Method: Laser diffraction x 1.8 1.6 / 1.2 / x 5 4. 11. / 7.7 NMT 5 /3.1 x 9 15. 35. /27.9 NMT 1 /7.9 Span [(x 9 x 1 )/x 5 ] / 3.5 / 2.4 % fines < 15 /73 /99 Figure 6: Specified PSD for MEGGLE s milled and lactose grades by laser diffraction (in bold letters). Typical values are shown solely for reference. Batch-to-batch consistency Batch-to-batch consistency for all lactose products is due to MEGGLE s technical expertise in lactose manufacture. Our stringent release criteria and constant process control ensure our products consistency and quality. MEGGLE Dry powder 218-5 5
on Direct compression agglomerated spray-dried anhydrous co-processed FlowLac 9 DuraLac H Cellactose Powder Tableting Tablettose 1 Direct Tablettose compression FlowLac 2 ated g 23 Tablettose spray-dried Tablettose anhydrous FlowLac 9 co-processed DuraLac H FlowLac 9 dry powder DuraLac H lactose grades Cellactose Powder MEGGLE s inhaler MEGGLE provides a broad spectrum of inhaler lactose rect compression FlowLac grades. The portfolio includes a variety of products ranging from the coarse to the fine 251. The specifi cation limits of MEGGLE s family are given in ed anhydrous co-processed figure 7. Cellactose 1 DuraLac H Tablettose FlowLac 9 FlowLac 9 DuraLac H Powder Cellactose Powder Cellactose SacheLac PrismaLac us 2 9 co-processed Tablettose DuraLac H FlowLac sed H milled Cellactose PrismaLac Powder Dry powder Powder sustained release PrismaLac Dry powder 12 Dry powder r ons sed 23 H Cellactose 12 SacheLac PrismaLac 1 milled sed SacheLac PrismaLac 1 milled milled5 23 rc ons PrismaLac 23 sustained release Dry powder 12 lease 5 5 5 1 milled5 23 12 5 SacheLac 12 5 5 23 23 251 lease c 251 12 251 c 1 12 5 SacheLac 5 5 SacheLac 12 12 5 1 23 c lease PrismaLac SIEVED SacheLac 1 PrismaLac MILLED/ MICRONIZED 251 c 6 x1 max 12 x1 min 5 5 5 1 sustained release 5 5 5 12 251 5 5 25 3 35 5 1 23 251 5 5 SacheLac 12 5 1 23 5 5 1 5 23 251 sustained release Figure 8: SEM images of MEGGLE s lactose grades. Photographed using ZEISS Ultra55 FESEM (U = 5 kv. Au/Pd vaporized). Inhalation lactose grades exhibit a different morphology. Sieved grades consist of single or agglomerated crystals, partly in 23 251 tomahawk-shaped structures. Coarser material exhibits a higher share of agglomerate particles. In contrast to the grades, milled and grades consist of lactose particles that are finer, more irregular and sharp-edged due to the manufacturing process (figure 8). SacheLac 5 1 23 251 SacheLac 12 1 sustained release 5 1 23 Inh mi 23 251 Inh Inh 251 Scanning electron micrograph (SEM) 5 mi 23 Figure 7: Specification limits of MEGGLE s dry powder inhaler lactose grades InhaLac, InhaLac 12, InhaLac 1, InhaLac 23 and InhaLac 251. MEGGLE Dry powder 218-5 1 milled 1 milled 5 15 2 SacheLac 12 23 12 1 1 milled 5 SacheLac PrismaLac Inh x9 max 12 251 251 12 1 c c 12 SacheLac 5 Specification limits PrismaLac Drydry powder powder Inhaler lactose grades Specification limits sustained release 12 x9 SacheLac min PrismaLac x5 max PrismaLac x5 min Dry powder sustained release Dry powder Cellactose PrismaLac Dry powder
Functional related characteristics Typical powder technological values Figure 9 provides additional information on the other functional characteristics of the lactose grades. Typical powder technological values BET surface Bulk density (m 2 /g) (g/ml) Tapped density (g/ml) Hausner ratio Sieved.13 1..71 1.18 15 12.15 1.72.83 1.15 13 1.12 1..84 1.19 16 23.16 1..85 1.21 18 251.33 1.64.88 1.38 27 Milled 1.74 2.33.53 1.61 38 Micronized 5 5.3 2.24.37 1.54 35 Carr s index (%) Figure 9: Typical technological powder values of MEGGLE s lactose grades (Quantachrome Autosorb-3, Krypton adsorption 1 /Nitrogen adsorption 2 ). Microbiology Parameters Total aerobic microbial count (TAMC) Total combined yeasts and molds count (TYMC) Bile tolerant gramnegative bacteria Escherichia coli Pseudomonas aeruginosa Staphylococcus aureus Salmonella spp. Burkholderia cepacia Bacterial endotoxins Specified NMT 1 cfu/g NMT 1 cfu/g negative/1 g negative/1 g negative/1 g negative/1 g negative/1 g negative/1 g < 5 EU/g Packaging and Stability Size Material Retest Sieved 12 1 23 251 Milled Micronized 5 25 kg 15 kg 1 kg Carton box with PE-EVOH-PE double inliner Carton box with an aluminium laminated and PE-EVOH-PE inliner Carton box with an aluminium laminated inliner Carton box with an aluminium laminated inliner 24 Months 24 Months 12 Months Figure 1: Specified microbiological parameters of MEGGLE s lactose grades. Figure 11: Packaging and shelf life of MEGGLE s lactose grades. Microbiology Packaging and Stability All of MEGGLE s grades have stricter or additional microbial limits compared to the current monographs of the Pharmacopoeia. This guarantees the highest safety in the use of grades in DPI formulations. All microbiological parameters listed in figure 1 are part of the product specification. MEGGLE has a validated production process with respect to bacterial endotoxines. Packaging material complies with Regulation (EC) No. 1935/24 and 21 CFR 174, 175, 176, 177 and 178. Stability tests were performed according to ICH guidelines and an ongoing stability program is in place. Figure 11 provides information on packaging size, material, and shelf life. MEGGLE Dry powder 218-5 7
Technical Support In order to fulfill our customers specific requirements, MEGGLE is open to opportunities for custom-made product solutions. This includes milled and grades as well as customized product specifications. MEGGLE s R&D works in close collaboration with research institutes and universities all over the world. This allows us to continuously increase our capabilities and our product portfolio. Our business is all about collaboration with our customers. MEGGLE has the necessary know-how for the registering specialty products in the United States. For more information on our entire portfolio, please contact @meggle.de Literature MEGGLE App: [1] Bousquet, J., Khaltaev, N. (27). Global surveillance, prevention and control of chronic respiratory diseases: a comprehensive approach WHO Library Cataloguingin-Publication Data: ISBN 978 92 4 156346 8 (NLM classi fication: WF 1), World Health Organization. [2] Labris, N.R., Dolovich, M. (23). Pulmonary drug delivery. Part II: The role of inhalant delivery devices and drug formulations in therapeutic effectiveness in aersolized medications, 56: 612. [3] Pilcer, G., Amighi, K. (21). Formulation strategy and use of excipients in pulmonary drug delivery. International Journal of Pharmaceutics, 392: 1 19. Submitted by MEGGLE Group Wasserburg BG Excipients & Technology Megglestraße 6 12 83512 Wasserburg Deutschland Phone +49 71 73 476 Fax +49 71 73 32 service.pharma@meggle.de www.meggle-pharma.com MEGGLE warrants that its products conform to MEGGLE s written specification and makes no other expressed or implied warrantees or representations. For any specific usage, the determination of suitability of use or application of MEGGLE products is the sole responsibility of the user. The determination of the use, application, and compliance of this product with regard to any national, regional, or local laws and/or regulations is the sole responsibility of the user, and MEGGLE makes no representation with regards to same. Nothing herein shall be construed as a recommendation or license to use the product or any information that conflicts with any patent or intellectual property of MEGGLE or others and any such determination of use is the sole responsibility of the user. MEGGLE EN 218-11 Sai